Purification of polyhydric alcohols



March 11, 1941. T EVANS ETAL 2,234,400

PURIFICATION OF POLYHYDRIC ALUOHOLS Filed June 10, 1959 lnvenfors Theodore W. Evans James R.5cheib\i Geroflol H.van de' Griend+ min rvairica'rioiv Theodore W. Evans and James R. Scheibii, Oakland, and Gerald B. van de Griendt, San Francisco, Calif assignors to Shell Development Company, San Francisco, Calii'., a corporation of Delaware Application June 10, 1939, Serial No. 278,480

Claims.

The present invention relates to a process for treating polyhydric alcohols, and more particularly pertains to a'process for the removal of certain undesirable constituents such as ash-forming, color-producing, odorous and/or odor-forming impurities, esters, aldehydes, etc., from glycerin, whereby a substantially pure and practically anhydrous glycerol may be produced.

In the generally employed methods for recovering glycerol from the dilute aqueous solutions containing glycerin and the mentioned impurities, the concentration of the glycerin stock (such as, for example, obtained as a by-product in the production of soaps, fatty acids, etc.) is usually preceded by a chemical treatment to remove as much of these impurities as possible. After concentration to about 80% or thereabouts, the crude glycerin thus produced, being still very impure, is then subjected to one or more steam distillations under vacuo and may be subjected to a chemical treatment, such as with decolorizing or activated charcoal, to remove most of the color-producing impurities. The so-called C. P. (chemically pure), U. S. P. and other high-grade glycerols thus produced and sold as articles of commerce, although quite pure and free from some of the easily removable impurities, frequently contain other types of impurities, especially those tending to produce coloration and objectionable odor upon aging.

The glycerin produced synthetically from hydrocarbons, as for example by the hydrolysis of glycerol dichlorhydrin, monochlorhydrin or trichlorhydrin, also contains impurities even after being subjected to repeated distillations in vacuo. Thus, such concentrated and distilled glycerins, although they are exceptionally free from impurities of the type 01 trimethylene glycol and/or methyl glycerol, still contain traces of chlorine, coloring matter, odorous substances and other impurities which render the glycerin unfit for certain exacting uses.

Recent developments, however, such as the advent oi Cellophane, synthetic resins, etc., not

' only have greatly increased the consumption of polyhydric alcohols, such as glycerol, but also have dictated new and exacting requirements and specifications, particularly as to purity. Thus, as an example, glycerol used as a plasticizing agent in Cellophane must meet very stringent specifications. and is sometime designated as very pure glycerol. Actually, however, the glycerin used for this purpose frequently contains a considerable amount of impurities which,nevertheless, exert no or little detrimental eflect so for as Cellophane plasticizing is concerned. On the other hand, in the manufacture of certain synthetic resins, the presence of these or like impurities is to be avoided as far as possible.

It is therefore the main object of the present invention to provide a method whereby the above and other impurities present in polyhydric a1- cohols may be efllciently removed. It is a further object of the invention to provide a process whereby a glycerol of high degree of purity may be produced economically and on an industrial scale.

It has now been discovered that at least a substantial portion of the impurities found in the so-called chemically pure, U. S. P. glycerin, and in other types of high-grade glycerins, are materials which are capable of reacting with strong bases. Also, it was found that certain impurities in the glycerin produced synthetically from hydrocarbons and refined by known methods including the process described in the U. S. Patent No; 2,154,930, still contain materials capable of reacting with strong bases of the type of sodium hydroxide. While there is no intention of limiting this invention by the soundness or accuracy of any theories presented as to the nature or character 0! such alkali-reactive impurities, it is believed at the present time that the impurities responsible for the deterioration and the observed unsatisfactory action of many of the so-called chemically pure glycerols are, in most cases, predominantly ester-type bodies. It is also considered that these ester-type bodies comprise the major proportion of the impurities present in synthetically produced glycerins which have been refined according to the hitherto known processes, these impurities, although not removable by these known purification methods, being nevertheless capable of reacting with strong bases. Furthermore, it has been stated that the glycerins refined as described above still contain some odorous materials which remain even after exacting treatments of the glycerin. Because of their peculiar characteristics, it is believed that these odorous bodies are aldehydic and hydroxyketonic in nature.

, Although previous attempts have been made to remove these impurities from the partially refined concentrated glycerins, a careful investigatlon of the behavior of the alkali-reactive compounds has demonstrated that these undesirable ingredients, predominating in ester-type bodies, cannot be efliciently removedfrom glycerin by any of the hitherto known and used refining processes even though, upon first consideration,

" their removal by the known methods would be glycerol, will remain in the glycerol even though such solvent extraction is executed at elevated temperatures. Also, these objectionable impuri'-' ties, as well as certain odorous bodies of the type of aldehydes and hydroxy ketones,which remain in glycerins purified according to the known processes, distill together with the glycerol throughout the entire distillation even when the glycerin is distilled while in a slightly alkaline state. Even ordinary steam distillation. whether under a vacuo or not, is ineffective as far as the separation of these ester-type bodies is concerned. Thus, the condensates obtained during such "distillation are found to contain excessive quantities of these impurities.

It is therefore a still further object of the present invention to provide a process of removing the above-mentioned alkali-reactive, ester-type and/or odorous substances present in partially purified glycerin. A further object is to provide a process wherein such impurities may be economically removed on an industrial scale and without any substantial loss of glycerol.

It has now been discovered that the above and other objects may be attained by subjecting the glycerin containing the afore-mentioned estertype and/or odorous materials to a vacuum distillation with substantial refluxing of the overhead glycerin distillate. It has also been discovered that when the relatively concentrated, partially purified glycerin containing the described odorous and ester-type bodies is distilled under a vacuum, while blowing with steam, and with a simultaneous return of a substantial portion of the overhead glycerin distillate as reflux, such a treatment causes the concentration of the major portion of the impurities in the first fraction or cut to distill over. During such steam distillation, it is advantageous to maintain the glycerin condenser at a temperature at which .such impurity-containing glycerol would condense with substantially no condensation of the steam. The latter may then be condensed separately. This water condensate contains the major portion of the odorous materials.

In order to effect the concentration and substantial removal of the odorous and alkali-reactive or ester-type bodies according to the presentinvention, the glycerin containing these impurities is, therefore, first subjected to a steam distillation under a vacuum, the overhead distillate, after passing through a fractionation column, being fractionally condensed to liquefy the impurity-containing glycerin while allowing the steam (containing most of the odorous bodies) to pass to a second condenser. The major portion of the impurity-containing glycerin is returned back into the fractionation zone, this glycerin acting as the refluxing medium. The remaining portion of the glycerin condensate is withdrawn from the system. As stated, such a treatment causes the concentration of the impurities and particularly of the ester-type bodies, in the first or fore-cut of the glycerin to distill over. Another advantage resides in the fact that the odorin the first fraction of glycerin to distill over,

'markedly'decreases the. impurity content of the remaining fraction. Therefore, after the separation or removal of the fore-cut", it is possible to distill and collect a large proportion of substantially pure glycerol, this fraction (usually called the heart-cut") containing substantially no, or at leastvery'small and permissible percentages of the mentioned impurities. This distillation of the substantially pure glycerol fraction is preferablyeifected under vacuum and without introduction of steam, thereby avoiding dilution of the glycerol fraction and at the same time lowering the distillation temperature and thus preventing cracking or decomposition of the glycerol.

It is to be noted that the refluxing of a substantial portion of the glycerin overhead during the first part of the distillation is essential for the concentration of the alkali-reactive impurities. Thus, whereas excellent results were obtained by effecting the distillation according to the present invention, it was found that substantially all of the impurities remained in the glycerin when the treatment was effected by mere blowing of the glycerin with steam or when the impurity-containing glycerin was subjected to an ordinary steam distillation.

The magnitude of the first cut obtained during the steam distillation withrefluxing, will vary depending on the character and percentages of the impurities present in the glycerin to be treated. Usually, for each stock to be distilled according to the present invention, it is preferable to continue the vacuum distillation with steam and with refluxing until the overhead fraction begins to show an ester content of about or slightly above that allowable in the glycerol to be distilled over as the heart-cu The reason that it is permissible to terminate the first distillation prior to the moment at which the ester content is at or below the allowable, is that it has been found that there is a marked drop in the ester content between the fraction produced by steam distillation with refluxing and the glycerol heart-cu obtained immediately thereafter by vacuum distillation without steam. Such drop is believed to be caused by the concentration of the esters in the fore-cut obtained during the vacuum distillation with steam and refluxing of a substantial portion of the overhead glycerin condensate, such concentration reducing the impurity content of the remainingundistilled glycerin. As an example, when an impurityecontaining glycerin was subjected to a treatment according to the present process, whereas the last 4% (as based on the volume of the glycerin treated) distilled over under vacuum, with steam and with the afore-mentioned substantial refluxing, had an alkali-reactive compound content equivalent to 3.4 cc. NNaOH/100 gm. of glycerol (as determined by the U. S. Pharmacopaeia method for determining acid and ester contents of glycerols), the succeeding 6.3% of glycerol distilled over under vacuum but without steam introduction had an ester content of only 0.43 cc. NNaOH/l gm. of glycerol. Usually, it may be stated that most of the relatively volatile impurities may be concentrated and removed in the first 5 to of of the glycerin distilled over according to the present invention. However, in some cases. where the glycerin to be treated contains relative high percentages of these impurities, it may bedesirable to remove up to about 20 to 25% of the glycerin before the glycerol fraction distilled over under vacuum, and preferably without steam, has a negligible or at least an allowable content of ester-type bodies.

In this connection it must be stated that the treatment of the glycerin according to the present process accomplishes a dual efiect. Thus, the first vacuum distillation with substantial refluxing and with the use of steam eifects concentration of the impurities, and particularly of the ester-type bodies, in the first fraction of the glyc-. erin to be distilled. On the other hand, the subsequent vacuum distillation of the remaining glycerin without steam avoids the undesirable dilution of the substantially pure glycerol thus recovered. During both distillations it is advisable, if not essential, to provide at least partial fractionation of the material being distilled.

Since the glycerin subjected to the treatment according to the present process contains oertain relatively heavy impurities boiilng above glycerol, the distillation and recovery of the glycerol heart-cut should be terminated prior to the vaporization of these impurities. In normal operations this second distillation is usually terminated when about 5 to 10% of the charge remains in the still as a residue. Obviously, the point at which the distillation of the substantially pure glycerol fraction is to be stopped depends on the character and magnitude or these relatively heavy impurities.

During the reflux distillation with steam to recover a concentrated "fore-cut containing most of the ester-type impurities, the vacuum should preferably be suflicient to vaporize these impurities. When operating at the distillation temperature of glycerol, excellent results are obtainable at pressures of between about 10 and 15 mm. of mercury. Although somewhat higher and lower pressures are permissible, it is preferred to operate above about 6 to 7 mm. of Hg. As to the vacuum distillation without steam, i. e. vacuum distillation of the heart-cut, any possible or economic vacuum may be used since the sole purpore thereof at this stage of operation is to lower the distillation temperature, thereby preventing decomposition of the glycerol. Excellent results have beenobtained when this distillation was effected at about 1 to 3 mm. of mercury.

It was brought out that the condensing of the overhead distillate during the first portion of the distillation, and the return of a substantialportion of such condensate for purposes of refluxing, concentrates the impurities in the first fractions of glycerin to distill over. In some cases the use of steam during this reflux distillation may be avoided. However, in most cases, and particularly when dealing with concentrated, par- -'tially purified glycerin derived synthetically, for

example, from the hydrolysis of chlorhydrins, the use of steam aids in the concentration of these ester-type bodies, thus markedly increasing the percentage of substantially pure glycerol which may be obtained from any given glycerin stock.

If it is desired to remove the odorous substances prior to the concentration of the estertype bodies, the vacuum distillation with steam may be eflected under conditions at which the whole glycerin overhead is condensed and refluxed back, while allowing the steam (together with the odorous bodies) to be removed from the system. Thereafter, when these substances have thus been separated, it is possible to proceed according to the described process to concentrate the ester-type bodies in the fore-cut.

To facilitate understanding of the process of the invention, reference is made to the accompanying drawing which illustrates diagrammatically a suitable method for executing the same. In this drawing. a still III is provided with a bubble tower II superimposed thereon, this tower containing the usual plates or other suitable contact elements I2, and being equipped with the necessary overflows I3 and bubble caps I4. The still is also equipped with a valved line I6 for the introduction thereinto of the glycerin to be purified, and with a valved'discharge line I! for the withdrawal of the residue remaining in the still after the termination of the distillation. The heating of the glycerin in the still (although this may be eifected in any manner) is realized by means of a heating fluid conveyed through a coil I8 disposed in the lower portion of the still. Steam is introduced through a valved line I9, the terminal end of which is provided with a nozzle 20. A line 22 connects the upper end of bubble tower II with a condenser 23 which is cooled by any known and desired means, such as water. A vent line 24 equipped with a valve 25 leads out from the top of the condenser and may be connected to a vacuum pump, or the like (not shown in the drawing) to maintain a subatmospheric pressure in the system. Refluxing of the condensate from condenser 23 is efiected via line 21 provided with valve 28, this line being also provided with a valved discharge line 29 for the removal of condensate in excess of that necessary for refluxing. Another line 30 provided with valve 3| leads to a tank 32 employed for the storage of the purified glycerin.

In operation, still III is charged via line IS with a batch of the glycerin to be distilled. Th distillation is then initiated by passing asuitably heated medium through coil I 8, steam being simultaneously injected into the glycerin through line I9 and nozzles 20. The rising vapors pass through bubble tower I I and line 22, and are thus conveyed into condenser 23 maintained at such a temperature that the glycerin and the alkalireactive impurities are condensed, while the steam and the odorous bodies pass out of the system through line 24. In order to concentrate the aforementioned impurities according to the present process, most of the condensate is returned from condenser 23 via line 21 back into tower II, while only a minor portion of this condensate is withdrawn through line 29. This steam distillation with refluxing is continued until most of the alkali-reactive impurities have been concentrated in the overhead fraction, at which time this fraction may be withdrawn through line 29. Thereafter, the distillation of the substantially pure glycerol is effected (with or without steam injection) by continuing the heating of the contents of still III. The overhead "heart-cut" is now conveyed via lin 30 into container 32. During this phase of distillation, valve 28 is maintained closed. Also, the valve on line 29 is kept in closed position, while valve 2| is open. At the termination of the above distillation, the residue remaining in still I I) is withdrawn via line H, and the still is then ready for the purification of a new batch of glycerin.

The following examples are submitted solely to illustrate suitable executions of the present invention and the benefits derived therefrom, and are not to be considered as limiting the invention to anyspeciflc temperatures, pressures, magnitudes of the various fractions, and the like.

Example I A volume of concentrated glycerin obtained by synthesis of petroleum hydrocarbons and refined according to the process covered by U. 8. Patent No. 2,154,930, was divided into two portions. The first portion was subjected to a vacuum distillation with steam and with substantial refluxing until about 20% of the charge was removed as the fore-cut. The second portion was distilled under vacuum but without introduction of steam. The alkali-reactive content of the overhead fraction of the first portion dropped below the allowable maximum before about 20% of the charge were removed, so that a substantially pure glycerol cut of about 75% of the charge was obtainable (the remaining 5% comprising a residue containing high boiling impurities) 0n the other hand, the distillate obtained from the distillation of .the second portion contained an excessive amount of the ester-type bodies even when 50% of the charge were distilled over.

Example II head glycerin condensate being used as a reflux.

Thereafter, the remaining glycerin was distilled without steam but with refluxing and at about 1 to 2 mm. mercury pressure. The following table gives the alkali-reactive contents of the various fractions obtained during these two distillations.

possible to employ superheated steam, which, under proper operating conditions, is additionally beneficial in that it may impart the necessary heat for the distillation.

It has been found that the present method of operation is particularly suitable for the removal of certain odorous and alkali-reactive or estertype compounds from glycerol synthesized from petroleum hydrocarbons, as, for example, obtained by the hydrolysis of halohydrins. Also, this method is especially suitable for the purification of glycerin which has been solvent extracted. However, it is to be understood that the invention is also applicable to the purification of other glycerin stocks, whether previously distilled and/or solvent treated, and to the treatment of polyhydric alcohols, such as ethylene glycol, erythritol, their homologous and analogous substances, etc., when contaminated with impurities of the character described.

The above described process of purification is particularly applicable to the treatment of aqueous polyhydric alcohol solutions, such as glycerin solutions, of concentrations above about and especially concentrated solutions of above about Therefore, the term "concentrated" as employed herein refers to such solutions containing less than 10% and preferably below about 5% of water.

While the above description presented in some detail the preferred embodiment of the present invention and some-variants thereof, it will be understood that this is only for the purpose of making the invention more clear and that the invention is not to be regarded as limited to the details of operation described, nor is it dependent upon the soundness or accuracy of the theories which have been advanced as to the reasons for the advantageous results attained, it being understood that the invention is to be coextensive with the scope of the appended claims.

We claim as our invention:

1. In a process for recovering a substantially pure glycerol from a glycerin produced synthetically from hydrocarbons or by the hydrolysis of halohydrins, said glycerin although having been Portion I Portion II 535$; Alkali-reactive Fmm gi g g Alkali-reactive tion as overcc N gggf m tion as overs% m head g head a g The table clearly indicates that the overhead distillate obtained without the use of steam still contained excessive quantities of impurities even after more than 60% of the charge were removed as overhead, it being noted that an ester content equivalent of 1.02 cc. N-NaOH/lOO gm. of glycerol is excessive in glycerin to be used for Cellophane plasticizing. On the other hand, when the distillation was effected according to the present invention with steaming, a satisfactory glycerol was obtained after the removal of 25% of the charge as the fore-cut.

Although the above vdisclosure was made with reference to the use of stearn during the reflux vacuum distillation of the fore-cut," it is also subjected to purification and concentration, still containing excessive quantities of odorous and alkali-reactive impurities, such as ester-type bodies boiling slightly below and above the boiling point of glycerol, the improvement which comprises subjecting said impurity-containing glycerin to a distillation in vacuo while blowing steam through said impure glycerin, conveying said distillate through a fractionation zone and then to a partial condensing zone, maintaining said condensing zone at a temperature suflicient to liquefy the ester-containing glycerol but insuflicient to condense the steam and most of the odorous bodies removed thereby, returning a major portion of said condensate back into the fractionation zone thereby condensing said estertype bodies in thefirst portion oi the glycerin to rbe removed asdistilledcondensate while removingonlya minorportion of the condensate from thersystem, continuing said vacuum distillation with steam'and with refluxing .=until the over- -head, glycerin distillate contains only-asmall rating a: substantially anhydrous,,=.pure glycerol 'uum and with concurrent passage of steam ycerin treated."

fraction;; and i terminating said last-mentioned distillation prior to the vaporization, of therelativelya higher boiling impurities present in the 2; In. a :'-process., for recovering maximum amounts of a; substantially -pure; glycerol from a synthetically producedzglycerin which, although partially purified, still-contains excessive amounts of-odorous and alkali-reactive impurities, such as ester-type bodies, boiling slightlyabove and below the boiling temperature of glycerol, the improvement which: comprises subjectlngsaid impuritycontaining glycerin to-adistillationunder a vacthrough said glycerin, conveying the, overhead fraction: thus, produced into a partial condensation zone maintained under conditions of temperature and pressure such that the ester-containing glycerol is liquefied while the steam and A most of the odorous bodies removed thereby remain uncondensed, continuously returning a major portion of said condensate as reflux back into the fractionating zone, thereby concentrating said ester-type bodies in the first portion of the glycerin to be removed as distilled condensate, continuing said vacuum distillation with steam and with refluxing until the overhead glycerin distillate contains only a small percentage of said alkali-reacting impurities, and separately vacuum-distilling the remaining undistilled lycerin fraction with reflux and in the absence of steam to separate as an overhead distillate a substantially anhydrous, pure glycerol fraction.

3. In a process for recovering a substantially pure glycerol from a glycerin such as derived by synthesis from hydrocarbons, said glycerin, although partially purified, still containing excessive quantities of alkali-reactive impurities, such as ester-type bodies boiling slightly below and above the boiling point of glycerol, the improvement which comprises distilling said impuritycontaining glycerin under a vacuum and with concurrent passage of steam through said 8 3" erin, condensing the impurity-containing overhead distillate, continuously returning into the distillation zone a major portion of said glycerin condensate as reflux, thereby concentrating the alkali-reactive impurities in the first portion of glycerin to distill over, continuously withdrawing a minor portion of said impurity-containing glycerin overhead out of the system, returning the remainder as condensate refluxing medium, continuing said distillation until the overhead glycerin distillate contains only a small percentage of said alkali-reactive impurities, vacuum distilling overhead the remaining glycerin fraction as a separate fraction, with refluxing and without steam introduction, thereby recovering a substantially anhydrous, pure glycerol fraction, and terminating said last-mentioned vacuum distillation prior to the vaporization of the relatively higher boiling impurities present in the glycerin treated.

A n .ar o e for, reco eries, s st n ia y pure and; anhydrousjglycerol-irom ,a glycerin solution containing excessive: quantities or odorous and alkali-reactive impurities, such as ester-type bodies, boiling slightlyabove-and below the boiling temperature of glycerol, the steps o'i' subjecto i glycerin to 1 av suu d s a i n. wit concurrent steaming, condensing the .oyer-head umpurity-containin'g glycerin returning a major portion thereof as arefluxing medium, while removing the excessv condensate, .tlierebyconcentrating the-alkali-reactive impurities in the first portion of the; glycerin to be distilledover and removed from the system, continuing saidl steam distillation until the overhead-fractioncontains onlya smalland allowable percentage of said alkali -reactive impurities, and separately distilling overhead thev remaining undistilled glycerin under vacuo andj without steaming, thereby,,,e-

covering ,a; substantially anhydrous, and pure" glycerol fraction; 3, .5. Ina process for the recovery.,.or.-a substantiallypure glycerol from a relatively concentrated glycerin solution containin excessive quantities of alkali-reactive impurities; such as, ester-type bodies whichboil in the neighborhood of the boiling temperature of-glycerol, the steps of vacuo distilling said. glycerin, condensing the overhead traction, returning a major portion of i said condensed glycerin distillate as ,refluxing .medlum thereby concentrating; the impurities in theflrst portion of the glycerin to distill over, continuously removing the portion of the distillate in excess of that employed for refluxing, continuing said distillation until the overhead distillate contains only small and allowable percentages of said alkali-reactive impuritiesfland separately distilling the remaining glycerin overhead thereby recoverlng a relatively large yield of a substantially pure, anhydrous glycerol.

6. In a process for removing odorous and alkali-reactive impurities from a glycerol contaminated therewith, said impurities boiling slightly above and below the boiling temperature of glycerol, the steps of subjecting said impurity-containing glycerin to a distillation under vacuo, with concurrent steaming of the glycerin, condensing the impurity-containing glycerin distillate, and returning a major portion of said condensate as a reflux without substantial inclusion of the water removed overhead, thereby concentrating the alkalireactive impurities in the first portion of the glycerin to distill over prior to the separate recovery of the bulk of the glycerol as distillate.

7. A process for the recovery of substantially pure and anhydrous polyhydric alcohol containing only very small and allowable percentages of odorous and alkali-reactive impurities from a polyhydric alcohol containing excessive amounts of said impurities which boil in the neighborhood of the boiling temperature of the polyhydric alcohol, which comprises subjecting said impuritycontaining polyhydric alcohol to distillation under vacuo, with concurrent passage of steam through said impurity-containing polyhydric alcohol, recovering the initial distillate thus produced while returning a major portion thereof as reflux, thereby concentrating the impurities in the polyhydric alcohol fraction which is distilled and removed at the beginning of said distlllation, continuing said distillation and removal of a portion of the distillate until the overhead fraction contains only small and substantially allowable percentage of said impurities, and distilling the remaining polyhydric alcohol overhead under vacuo and without the use of steam, thereby recovering said substantially pure and anhydrous polyhydric alcohol.

8. In a process for removing odorous and alkali-reactive impurities from a glycerol contaminated therewith, said impurities boiling slightLv above and below the boiling point of glycerol, the steps of subjecting said impurity-containing glycerol to a distillation under vacuum and with concurrent blowing of steam through said glycerol, conveying the overhead fraction thus produced into a partial condensation zone maintained under conditions of temperature and pressure such that the glycerol containing the alkalireactive impurities is liquefied while the steam and most of the odorous bodies removed thereby remain uncondensed, withdrawing a minor portion of the impurity-containing glycerol condensate out of the system, and returning a major portion of said glycerol condensate as reflux, thereby concentrating the alkali-reactive impurities in the first portion of the glycerol to distill over prior .to the separate recovery of the bulk of the glycerol as distillate.

9. In a process Ior removing odorous and alkali-reactive impurities from a polyhydric alcohol contaminated therewith, said alkali-reactive impurities boiling in the neighborhood of the boiling temperature of the polyhydric alcohol,'the steps of subjecting said impurity-containing polyhydric alcohol to a distillation under vacuo,

with concurrent steaming oi the alcohol, condensing the impurity-containing polyhydric alcohol distillate thus formed, and returning a major portion of saidcondensate as reflux while withdrawing a minor portion of the impuritycontaining polyhydric alcohol condensate out of the system, thereby concentrating the alkalireactive impurities in the first portion oi-the polyhydric alcohol to distill over prior to the separate recovery of the bulk of the polyhydric alcohol as distillate.

10. In a process for removing alkali-reactive impurities from a polyhydric alcohol contaminated therewith, said impurities boiling substantially in the neighborhood oi the boiling temperature of the alcohol, the steps of subjecting said impurity-containing polyhydric alcohol to a vacuum distillation with concurrent blowing oi steam through the polyhydric alcohol, condensing the overhead fraction thus produced, withdrawing a minor portion of the impurity-containing polyhydric alcohol condensate out of the system, and returning the remaining major portion of said polyhydric alcohol condensate as reflux, thereby concentrating the alkali-reactive impurities in the first portion of the p lyhvdric alcohol to distill over prior to the separate recovery of the bulk of the polyhydric alcohol as distiliate.

THEODORE W. EVANS. JAMES R. SCHEIBLI. GERALD H. VAN n: GRIEND'I. 

